;;;; This software is part of the SBCL system. See the README file for ;;;; more information. ;;;; ;;;; This software is derived from the CMU CL system, which was ;;;; written at Carnegie Mellon University and released into the ;;;; public domain. The software is in the public domain and is ;;;; provided with absolutely no warranty. See the COPYING and CREDITS ;;;; files for more information. (in-package "SB!KERNEL") (/show0 "target-defstruct.lisp 12") ;;;; structure frobbing primitives ;;; Allocate a new instance with LENGTH data slots. (defun %make-instance (length) (declare (type index length)) (%make-instance length)) ;;; Given an instance, return its length. (defun %instance-length (instance) (declare (type instance instance)) (%instance-length instance)) ;;; Return the value from the INDEXth slot of INSTANCE. This is SETFable. (defun %instance-ref (instance index) (%instance-ref instance index)) ;;; Set the INDEXth slot of INSTANCE to NEW-VALUE. (defun %instance-set (instance index new-value) (setf (%instance-ref instance index) new-value)) ;;; Normally IR2 converted, definition needed for interpreted structure ;;; constructors only. #!+sb-eval (defun %make-structure-instance (dd slot-specs &rest slot-values) (let ((instance (%make-instance (dd-instance-length dd)))) (setf (%instance-layout instance) (dd-layout-or-lose dd)) (mapc (lambda (spec value) (destructuring-bind (raw-type . index) (cdr spec) (macrolet ((make-case () `(ecase raw-type ((t) (setf (%instance-ref instance index) value)) ,@(mapcar (lambda (rsd) `(,(raw-slot-data-raw-type rsd) (setf (,(raw-slot-data-accessor-name rsd) instance index) value))) *raw-slot-data-list*)))) (make-case)))) slot-specs slot-values) instance)) (defun %raw-instance-ref/word (instance index) (declare (type index index)) (%raw-instance-ref/word instance index)) (defun %raw-instance-set/word (instance index new-value) (declare (type index index) (type sb!vm:word new-value)) (%raw-instance-set/word instance index new-value)) (defun %raw-instance-ref/single (instance index) (declare (type index index)) (%raw-instance-ref/single instance index)) (defun %raw-instance-set/single (instance index new-value) (declare (type index index) (type single-float new-value)) (%raw-instance-set/single instance index new-value)) (defun %raw-instance-ref/double (instance index) (declare (type index index)) (%raw-instance-ref/double instance index)) (defun %raw-instance-set/double (instance index new-value) (declare (type index index) (type double-float new-value)) (%raw-instance-set/double instance index new-value)) (defun %raw-instance-ref/complex-single (instance index) (declare (type index index)) (%raw-instance-ref/complex-single instance index)) (defun %raw-instance-set/complex-single (instance index new-value) (declare (type index index) (type (complex single-float) new-value)) (%raw-instance-set/complex-single instance index new-value)) (defun %raw-instance-ref/complex-double (instance index) (declare (type index index)) (%raw-instance-ref/complex-double instance index)) (defun %raw-instance-set/complex-double (instance index new-value) (declare (type index index) (type (complex double-float) new-value)) (%raw-instance-set/complex-double instance index new-value)) (defun %instance-layout (instance) (%instance-layout instance)) (defun %set-instance-layout (instance new-value) (%set-instance-layout instance new-value)) (defun %make-funcallable-instance (len) (%make-funcallable-instance len)) (defun funcallable-instance-p (x) (funcallable-instance-p x)) (deftype funcallable-instance () `(satisfies funcallable-instance-p)) (defun %funcallable-instance-info (fin i) (%funcallable-instance-info fin i)) (defun %set-funcallable-instance-info (fin i new-value) (%set-funcallable-instance-info fin i new-value)) (defun funcallable-instance-fun (fin) (%funcallable-instance-function fin)) (defun (setf funcallable-instance-fun) (new-value fin) (setf (%funcallable-instance-function fin) new-value)) ;;;; target-only parts of the DEFSTRUCT top level code ;;; A list of hooks designating functions of one argument, the ;;; classoid, to be called when a defstruct is evaluated. (defvar *defstruct-hooks* nil) ;;; Catch attempts to mess up definitions of symbols in the CL package. (defun protect-cl (symbol) (/show0 "entering PROTECT-CL, SYMBOL=..") (/hexstr symbol) (when (and *cold-init-complete-p* (eq (symbol-package symbol) *cl-package*)) (cerror "Go ahead and patch the system." "attempting to modify a symbol in the COMMON-LISP package: ~S" symbol)) (/show0 "leaving PROTECT-CL") (values)) (defun make-defstruct-predicate (dd layout) (ecase (dd-type dd) ;; structures with LAYOUTs ((structure funcallable-structure) (/show0 "with-LAYOUT case") #'(lambda (object) (locally ; <- to keep SAFETY 0 from affecting arg count checking (declare (optimize (speed 3) (safety 0))) (/noshow0 "in with-LAYOUT structure predicate closure,") (/noshow0 " OBJECT,LAYOUT=..") (/nohexstr object) (/nohexstr layout) (typep-to-layout object layout)))) ;; structures with no LAYOUT (i.e. :TYPE VECTOR or :TYPE LIST) ;; ;; FIXME: should handle the :NAMED T case in these cases (vector (/show0 ":TYPE VECTOR case") #'vectorp) (list (/show0 ":TYPE LIST case") #'listp))) (defun make-defstruct-copier (dd layout) (ecase (dd-type dd) (structure #'(lambda (instance) (%check-structure-type-from-layout instance layout) (copy-structure instance))))) ;;; the part of %DEFSTRUCT which makes sense only on the target SBCL ;;; ;;; (The "static" in the name is because it needs to be done not only ;;; in ordinary toplevel %DEFSTRUCT, but also in cold init as early as ;;; possible, to simulate static linking of structure functions as ;;; nearly as possible.) (defun %target-defstruct (dd layout) (declare (type defstruct-description dd)) (declare (type layout layout)) (/show0 "entering %TARGET-DEFSTRUCT") (remhash (dd-name dd) *typecheckfuns*) ;; (Constructors aren't set up here, because constructors are ;; varied enough (possibly parsing any specified argument list) ;; that we can't reasonably implement them as closures, so we ;; implement them with DEFUN instead.) ;; Set FDEFINITIONs for slot accessors. (dolist (dsd (dd-slots dd)) (/show0 "doing FDEFINITION for slot accessor") (let ((accessor-name (dsd-accessor-name dsd))) ;; We mustn't step on any inherited accessors (unless (accessor-inherited-data accessor-name dd) (/show0 "ACCESSOR-NAME=..") (/hexstr accessor-name) (protect-cl accessor-name) (/hexstr "getting READER-FUN and WRITER-FUN") (multiple-value-bind (reader-fun writer-fun) (slot-accessor-funs dd dsd) (declare (type function reader-fun writer-fun)) (/show0 "got READER-FUN and WRITER-FUN=..") (/hexstr reader-fun) (setf (symbol-function accessor-name) reader-fun) (unless (dsd-read-only dsd) (/show0 "setting FDEFINITION for WRITER-FUN=..") (/hexstr writer-fun) (setf (fdefinition `(setf ,accessor-name)) writer-fun)))))) ;; Set FDEFINITION for copier. (when (dd-copier-name dd) (/show0 "doing FDEFINITION for copier") (protect-cl (dd-copier-name dd)) ;; We can't use COPY-STRUCTURE for other kinds of objects, notably ;; funcallable structures, since it returns a STRUCTURE-OBJECT. ;; (And funcallable instances don't need copiers anyway.) (aver (eql (dd-type dd) 'structure)) (setf (symbol-function (dd-copier-name dd)) (make-defstruct-copier dd layout))) ;; Set FDEFINITION for predicate. (when (dd-predicate-name dd) (/show0 "doing FDEFINITION for predicate") (protect-cl (dd-predicate-name dd)) (setf (symbol-function (dd-predicate-name dd)) (make-defstruct-predicate dd layout))) (when (dd-doc dd) (setf (fdocumentation (dd-name dd) 'structure) (dd-doc dd))) ;; the BOUNDP test here is to get past cold-init. (when (boundp '*defstruct-hooks*) (dolist (fun *defstruct-hooks*) (funcall fun (find-classoid (dd-name dd))))) (/show0 "leaving %TARGET-DEFSTRUCT") (values)) ;;;; generating out-of-line slot accessor functions ;;; FIXME: Ideally, the presence of the type checks in the functions ;;; here would be conditional on the optimization policy at the point ;;; of expansion of DEFSTRUCT. (For now we're just doing the simpler ;;; thing, putting in the type checks unconditionally.) ;;; KLUDGE: Why use this closure approach at all? The macrology in ;;; SLOT-ACCESSOR-FUNS seems to be half stub, half OAOOM to me. --DFL ;;; Return (VALUES SLOT-READER-FUN SLOT-WRITER-FUN). (defun slot-accessor-funs (dd dsd) #+sb-xc (/show0 "entering SLOT-ACCESSOR-FUNS") ;; various code generators ;; ;; Note: They're only minimally parameterized, and cavalierly grab ;; things like INSTANCE and DSD-INDEX from the namespace they're ;; expanded in. (macrolet (;; code shared between funcallable instance case and the ;; ordinary STRUCTURE-OBJECT case: Handle native ;; structures with LAYOUTs and (possibly) raw slots. (%native-slot-accessor-funs (dd-ref-fun-name) (let ((instance-type-check-form '(%check-structure-type-from-layout instance layout))) (/show "macroexpanding %NATIVE-SLOT-ACCESSOR-FUNS" dd-ref-fun-name instance-type-check-form) `(let ((layout (dd-layout-or-lose dd)) (dsd-raw-type (dsd-raw-type dsd))) #+sb-xc (/show0 "in %NATIVE-SLOT-ACCESSOR-FUNS macroexpanded code") ;; Map over all the possible RAW-TYPEs, compiling ;; a different closure function for each one, so ;; that once the COND over RAW-TYPEs happens (at ;; the time closure is allocated) there are no ;; more decisions to be made and things execute ;; reasonably efficiently. (cond ;; nonraw slot case ((eql dsd-raw-type t) #+sb-xc (/show0 "in nonraw slot case") (%slotplace-accessor-funs (,dd-ref-fun-name instance dsd-index) ,instance-type-check-form)) ;; raw slot cases ,@(mapcar (lambda (rtd) (let ((raw-type (raw-slot-data-raw-type rtd)) (accessor-name (raw-slot-data-accessor-name rtd))) `((equal dsd-raw-type ',raw-type) #+sb-xc (/show0 "in raw slot case") (%slotplace-accessor-funs (,accessor-name instance dsd-index) ,instance-type-check-form)))) *raw-slot-data-list*) ;; oops (t (bug "unexpected DSD-RAW-TYPE ~S" dsd-raw-type)))))) ;; code shared between DEFSTRUCT :TYPE LIST and ;; DEFSTRUCT :TYPE VECTOR cases: Handle the "typed ;; structure" case, with no LAYOUTs and no raw slots. (%colontyped-slot-accessor-funs () (error "stub")) ;; the common structure of the raw-slot and not-raw-slot ;; cases, defined in terms of the writable SLOTPLACE. All ;; possible flavors of slot access should be able to pass ;; through here. (%slotplace-accessor-funs (slotplace instance-type-check-form) (/show "macroexpanding %SLOTPLACE-ACCESSOR-FUNS" slotplace instance-type-check-form) `(let ((typecheckfun (typespec-typecheckfun dsd-type))) (values (if (dsd-safe-p dsd) (lambda (instance) (/noshow0 "in %SLOTPLACE-ACCESSOR-FUNS-defined reader") ,instance-type-check-form (/noshow0 "back from INSTANCE-TYPE-CHECK-FORM") ,slotplace) (lambda (instance) (/noshow0 "in %SLOTPLACE-ACCESSOR-FUNS-defined reader") ,instance-type-check-form (/noshow0 "back from INSTANCE-TYPE-CHECK-FORM") (let ((value ,slotplace)) (funcall typecheckfun value) value))) (lambda (new-value instance) (/noshow0 "in %SLOTPLACE-ACCESSOR-FUNS-defined writer") ,instance-type-check-form (/noshow0 "back from INSTANCE-TYPE-CHECK-FORM") (funcall typecheckfun new-value) (/noshow0 "back from TYPECHECKFUN") (setf ,slotplace new-value)))))) (let ((dsd-index (dsd-index dsd)) (dsd-type (dsd-type dsd))) #+sb-xc (/show0 "got DSD-TYPE=..") #+sb-xc (/hexstr dsd-type) (ecase (dd-type dd) ;; native structures (structure #+sb-xc (/show0 "case of DSD-TYPE = STRUCTURE") (%native-slot-accessor-funs %instance-ref)) ;; structures with the :TYPE option ;; FIXME: Worry about these later.. #| ;; In :TYPE LIST and :TYPE VECTOR structures, ANSI specifies the ;; layout completely, so that raw slots are impossible. (list (dd-type-slot-accessor-funs nth-but-with-sane-arg-order `(%check-structure-type-from-dd :maybe-raw-p nil)) (vector (dd-type-slot-accessor-funs aref :maybe-raw-p nil))) |# )))) ;;; Copy any old kind of structure. (defun copy-structure (structure) #!+sb-doc "Return a copy of STRUCTURE with the same (EQL) slot values." (declare (type structure-object structure)) (let* ((layout (%instance-layout structure)) (res (%make-instance (%instance-length structure))) (len (layout-length layout)) (nuntagged (layout-n-untagged-slots layout))) (declare (type index len)) (when (layout-invalid layout) (error "attempt to copy an obsolete structure:~% ~S" structure)) ;; Copy ordinary slots and layout. (dotimes (i (- len nuntagged)) (declare (type index i)) (setf (%instance-ref res i) (%instance-ref structure i))) ;; Copy raw slots. (dotimes (i nuntagged) (declare (type index i)) (setf (%raw-instance-ref/word res i) (%raw-instance-ref/word structure i))) res)) ;; Do an EQUALP comparison on the raw slots (only, not the normal slots) of a ;; structure. (defun raw-instance-slots-equalp (layout x y) ;; This implementation sucks, but hopefully EQUALP on raw structures ;; won't be a major bottleneck for anyone. It'd be tempting to do ;; all this with %RAW-INSTANCE-REF/WORD and bitwise comparisons, but ;; that'll fail in some cases. For example -0.0 and 0.0 are EQUALP ;; but have different bit patterns. -- JES, 2007-08-21 (loop for dsd in (dd-slots (layout-info layout)) for raw-type = (dsd-raw-type dsd) for rsd = (unless (eql raw-type t) (find raw-type *raw-slot-data-list* :key 'raw-slot-data-raw-type)) always (or (not rsd) (funcall (raw-slot-data-comparer rsd) (dsd-index dsd) x y)))) ;;; default PRINT-OBJECT method (defun %print-structure-sans-layout-info (name stream) ;; KLUDGE: during PCL build debugging, we can sometimes ;; attempt to print out a PCL object (with null LAYOUT-INFO). (pprint-logical-block (stream nil :prefix "#<" :suffix ">") (prin1 name stream) (write-char #\space stream) (write-string "(no LAYOUT-INFO)" stream))) (defun %print-structure-sans-slots (name stream) ;; the structure type doesn't count as a component for *PRINT-LEVEL* ;; processing. We can likewise elide the logical block processing, ;; since all we have to print is the type name. -- CSR, 2004-10-05 (write-string "#S(" stream) (prin1 name stream) (write-char #\) stream)) (defun %default-structure-pretty-print (structure stream) (let* ((layout (%instance-layout structure)) (name (classoid-name (layout-classoid layout))) (dd (layout-info layout))) (cond ((not dd) (%print-structure-sans-layout-info name stream)) ((not (dd-slots dd)) (%print-structure-sans-slots name stream)) (t (pprint-logical-block (stream nil :prefix "#S(" :suffix ")") (prin1 name stream) (let ((remaining-slots (dd-slots dd))) (when remaining-slots (write-char #\space stream) ;; CMU CL had (PPRINT-INDENT :BLOCK 2 STREAM) here, ;; but I can't see why. -- WHN 20000205 (pprint-newline :linear stream) (loop (pprint-pop) (let ((slot (pop remaining-slots))) (write-char #\: stream) (output-symbol-name (symbol-name (dsd-name slot)) stream) (write-char #\space stream) (pprint-newline :miser stream) (output-object (funcall (fdefinition (dsd-accessor-name slot)) structure) stream) (when (null remaining-slots) (return)) (write-char #\space stream) (pprint-newline :linear stream)))))))))) (defun %default-structure-ugly-print (structure stream) (let* ((layout (%instance-layout structure)) (name (classoid-name (layout-classoid layout))) (dd (layout-info layout))) (cond ((not dd) (%print-structure-sans-layout-info name stream)) ((not (dd-slots dd)) (%print-structure-sans-slots name stream)) (t (descend-into (stream) (write-string "#S(" stream) (prin1 name stream) (do ((index 0 (1+ index)) (remaining-slots (dd-slots dd) (cdr remaining-slots))) ((or (null remaining-slots) (and (not *print-readably*) *print-length* (>= index *print-length*))) (if (null remaining-slots) (write-string ")" stream) (write-string " ...)" stream))) (declare (type index index)) (write-string " :" stream) (let ((slot (first remaining-slots))) (output-symbol-name (symbol-name (dsd-name slot)) stream) (write-char #\space stream) (output-object (funcall (fdefinition (dsd-accessor-name slot)) structure) stream)))))))) (defun default-structure-print (structure stream depth) (declare (ignore depth)) (cond ((funcallable-instance-p structure) (print-unreadable-object (structure stream :identity t :type t))) (*print-pretty* (%default-structure-pretty-print structure stream)) (t (%default-structure-ugly-print structure stream)))) (def!method print-object ((x structure-object) stream) (default-structure-print x stream *current-level-in-print*)) ;;;; testing structure types ;;; Return true if OBJ is an object of the structure type ;;; corresponding to LAYOUT. This is called by the accessor closures, ;;; which have a handle on the type's LAYOUT. ;;; ;;; FIXME: This is fairly big, so it should probably become ;;; MAYBE-INLINE instead of INLINE, or its inlineness should become ;;; conditional (probably through DEFTRANSFORM) on (> SPEED SPACE). Or ;;; else we could fix things up so that the things which call it are ;;; all closures, so that it's expanded only in a small number of ;;; places. #!-sb-fluid (declaim (inline typep-to-layout)) (defun typep-to-layout (obj layout) (declare (type layout layout) (optimize (speed 3) (safety 0))) (/noshow0 "entering TYPEP-TO-LAYOUT, OBJ,LAYOUT=..") (/nohexstr obj) (/nohexstr layout) (when (layout-invalid layout) (error "An obsolete structure typecheck function was called.")) (/noshow0 "back from testing LAYOUT-INVALID LAYOUT") (and (%instancep obj) (let ((obj-layout (%instance-layout obj))) (when (eq obj-layout layout) ;; (In this case OBJ-LAYOUT can't be invalid, because ;; we determined LAYOUT is valid in the test above.) (/noshow0 "EQ case") (return-from typep-to-layout t)) (when (layout-invalid obj-layout) (/noshow0 "LAYOUT-INVALID case") (setf obj-layout (update-object-layout-or-invalid obj layout))) (let ((depthoid (layout-depthoid layout))) (/noshow0 "DEPTHOID case, DEPTHOID,LAYOUT-INHERITS=..") (/nohexstr depthoid) (/nohexstr layout-inherits) (and (> (layout-depthoid obj-layout) depthoid) (eq (svref (layout-inherits obj-layout) depthoid) layout)))))) ;;;; checking structure types ;;; Check that X is an instance of the named structure type. (defmacro %check-structure-type-from-name (x name) `(%check-structure-type-from-layout ,x ,(compiler-layout-or-lose name))) ;;; Check that X is a structure of the type described by DD. (defmacro %check-structure-type-from-dd (x dd) (declare (type defstruct-description dd)) (let ((class-name (dd-name dd))) (ecase (dd-type dd) ((structure funcallable-instance) `(%check-structure-type-from-layout ,x ,(compiler-layout-or-lose class-name))) ((vector) (with-unique-names (xx) `(let ((,xx ,x)) (declare (type vector ,xx)) ,@(when (dd-named dd) `((unless (eql (aref ,xx 0) ',class-name) (error 'simple-type-error :datum (aref ,xx 0) :expected-type `(member ,class-name) :format-control "~@" :format-arguments (list ',class-name ,xx))))) (values)))) ((list) (with-unique-names (xx) `(let ((,xx ,x)) (declare (type list ,xx)) ,@(when (dd-named dd) `((unless (eql (first ,xx) ',class-name) (error 'simple-type-error :datum (aref ,xx 0) :expected-type `(member ,class-name) :format-control "~@" :format-arguments (list ',class-name ,xx))))) (values))))))) ;;; Check that X is an instance of the structure class with layout LAYOUT. (defun %check-structure-type-from-layout (x layout) (unless (typep-to-layout x layout) (error 'type-error :datum x :expected-type (classoid-name (layout-classoid layout)))) (values)) (/show0 "target-defstruct.lisp end of file")